示例#1
0
        public void LoadSingleBurstDataTest()
        {
            string filePath = Path.GetFullPath(@"Support Files\WLAN Single Burst.tdms");

            SG.Waveform waveform = SG.LoadWaveformFromTDMS(filePath);

            //This value is known empirically from the waveform configuration
            double actualLength = 5.132112e-3;

            Assert.AreEqual(waveform.BurstLength_s, actualLength, 1e-6,
                            "Burst length should be properly calculated for a single-burst waveforms.");

            double papr;

            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);
            if (waveformVersion == "1.0.0")
            {
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out papr);
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out papr);  //Version 2.0.0 and later
            }
            Assert.AreEqual(waveform.PAPR_dB, papr, .001,
                            "PAPR for a single-burst waveform should match what is reported by RFmx.");
        }
示例#2
0
        public void LoadMultiBurstDataTest()
        {
            string filePath = Path.GetFullPath(@"Support Files\LTE TDD Waveform.tdms");

            SG.Waveform waveform = SG.LoadWaveformFromTDMS(filePath);

            double actualLength = waveform.WaveformData.SampleCount / waveform.SampleRate;

            Assert.AreEqual(waveform.BurstLength_s, actualLength, 1e-9,
                            "Burst length should be properly calculated for multi-burst waveforms.");

            double papr;

            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);
            if (waveformVersion == "1.0.0")
            {
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out papr);
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out papr);  //Version 2.0.0 and later
            }
            Assert.AreEqual(waveform.PAPR_dB, papr, .001,
                            "PAPR for a multi-burst waveform should match what is reported by RFmx.");
        }
        public static Waveform LoadWaveformFromTDMS(string filePath, string waveformName = "", bool normalizeWaveform = true)
        {
            Waveform waveform = new Waveform();

            if (string.IsNullOrEmpty(waveformName))
            {
                waveformName = Path.GetFileNameWithoutExtension(filePath);
                Utilities.FormatWaveformName(ref waveformName);
            }
            waveform.WaveformName = waveformName;
            NIRfsgPlayback.ReadWaveformFromFileComplex(filePath, ref waveform.WaveformData);
            NIRfsgPlayback.ReadSignalBandwidthFromFile(filePath, 0, out waveform.SignalBandwidth_Hz);

            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);
            if (waveformVersion == "1.0.0")
            {
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out waveform.PAPR_dB);
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out waveform.PAPR_dB);  //Version 2.0.0 and later
            }
            NIRfsgPlayback.ReadBurstStartLocationsFromFile(filePath, 0, ref waveform.BurstStartLocations);
            NIRfsgPlayback.ReadBurstStopLocationsFromFile(filePath, 0, ref waveform.BurstStopLocations);

            //Statement reads: if NOT BurstStartLocations > 0 AND expression is not null (? operand)
            //In other words, manually set BurstStartLocations when the length is 0 or less or array is null
            if (!(waveform.BurstStartLocations?.Length > 0))
            {
                //Set burst start to the first sample(0)
                waveform.BurstStartLocations = new int[1] {
                    0
                };
            }
            if (!(waveform.BurstStopLocations?.Length > 0))
            {
                //Set burst stop to the last sample (number of samples minus one)
                waveform.BurstStopLocations = new int[1] {
                    waveform.WaveformData.SampleCount - 1
                };
            }

            NIRfsgPlayback.ReadSampleRateFromFile(filePath, 0, out waveform.SampleRate);
            waveform.BurstLength_s = CalculateWaveformDuration(waveform.BurstStartLocations, waveform.BurstStopLocations, waveform.SampleRate);

            if (normalizeWaveform)
            {
                NormalizeWaveform(waveform);
            }

            return(waveform);
        }
示例#4
0
        public void LoadNoBurstDataTest()
        {
            string filePath = Path.GetFullPath(@"Support Files\BT No Burst.tdms");

            SG.Waveform waveform = SG.LoadWaveformFromTDMS(filePath, "", true);

            Assert.IsTrue(waveform.BurstStartLocations[0] == 0, "Burst start set to 0");
            Assert.IsTrue(waveform.BurstStopLocations[0] == waveform.WaveformData.SampleCount - 1, "Burst stop set to last sample");

            double papr;

            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);
            if (waveformVersion == "1.0.0")
            {
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out papr);
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out papr);  //Version 2.0.0 and later
            }
            Assert.AreEqual(waveform.PAPR_dB, papr, .001,
                            "PAPR for a no-burst waveform should match what is reported by RFmx.");
        }
示例#5
0
        /// <summary>Loads a waveform and relevant properties from a TDMS file.</summary>
        /// <param name="filePath">Specifies the absolute path to the .TDMS waveform file on disk.</param>
        /// <param name="waveformName">(Optional) Specifies the name to use to represent the waveform. The file name will be used by default.</param>
        /// <returns>The waveform data and associated properties represented in the Waveform type.</returns>
        public static Waveform LoadWaveformFromTDMS(string filePath, string waveformName = "")
        {
            Waveform waveform = new Waveform();

            if (string.IsNullOrEmpty(waveformName))
            {
                waveformName = Path.GetFileNameWithoutExtension(filePath);
                waveformName = FormatWaveformName(waveformName);
            }

            waveform.Name = waveformName;
            NIRfsgPlayback.ReadWaveformFromFileComplex(filePath, ref waveform.Data);
            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);

            if (waveformVersion == "1.0.0")
            {
                // 1.0.0 waveforms use peak power adjustment = papr + runtime scaling
                // we will scale the waveform and calculate papr and runtime scaling manually
                float peak = ComplexSingle.GetMagnitudes(waveform.Data.GetRawData()).Max();
                waveform.RuntimeScaling = 20.0 * Math.Log10(peak);
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out double peakPowerAdjustment);
                waveform.PAPR_dB = peakPowerAdjustment + waveform.RuntimeScaling;

                // scale the waveform to full scale
                WritableBuffer <ComplexSingle> waveformBuffer = waveform.Data.GetWritableBuffer();
                ComplexSingle scale = ComplexSingle.FromPolar(1.0f / peak, 0.0f);
                for (int i = 0; i < waveform.Data.SampleCount; i++)
                {
                    waveformBuffer[i] = waveformBuffer[i] * scale; // multiplication is faster than division
                }
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out waveform.PAPR_dB); //Version 2.0.0 and later
                NIRfsgPlayback.ReadRuntimeScalingFromFile(filePath, 0, out waveform.RuntimeScaling);
            }

            NIRfsgPlayback.ReadSampleRateFromFile(filePath, 0, out waveform.SampleRate);
            NIRfsgPlayback.ReadSignalBandwidthFromFile(filePath, 0, out waveform.SignalBandwidth_Hz);
            if (waveform.SignalBandwidth_Hz == 0.0)
            {
                waveform.SignalBandwidth_Hz = 0.8 * waveform.SampleRate;
            }

            NIRfsgPlayback.ReadBurstStartLocationsFromFile(filePath, 0, ref waveform.BurstStartLocations);
            NIRfsgPlayback.ReadBurstStopLocationsFromFile(filePath, 0, ref waveform.BurstStopLocations);
            //Statement reads: if NOT BurstStartLocations > 0 AND expression is not null (? operand)
            //In other words, manually set BurstStartLocations when the length is 0 or less or array is null
            if (!(waveform.BurstStartLocations?.Length > 0))
            {
                waveform.BurstStartLocations = new int[1] {
                    0
                }
            }
            ;                                                    //Set burst start to the first sample(0)
            if (!(waveform.BurstStopLocations?.Length > 0))
            {
                waveform.BurstStopLocations = new int[1] {
                    waveform.Data.SampleCount - 1
                }
            }
            ;                                                                               //Set burst stop to the last sample (number of samples minus one)

            // calculating IdleDurationPresent like this also accounts for tools like wlan sfp that put in burst start and stop locations even if there is no idle time in the waveform
            waveform.IdleDurationPresent = waveform.BurstStopLocations.First() - waveform.BurstStartLocations.First() < waveform.Data.SampleCount - 1;

            waveform.BurstLength_s = CalculateWaveformDuration(waveform.BurstStartLocations, waveform.BurstStopLocations, waveform.SampleRate);

            return(waveform);
        }
        public static Waveform LoadWaveformFromTDMS(ref NIRfsg rfsgHandle, string filePath, string waveformName = "", bool normalizeWaveform = true)
        {
            Waveform waveform = new Waveform
            {
                WaveformData = new ComplexWaveform <ComplexSingle>(0)
            };

            if (string.IsNullOrEmpty(waveformName))
            {
                waveformName = Path.GetFileNameWithoutExtension(filePath);
                Utilities.FormatWaveformName(ref waveformName);
            }
            waveform.WaveformName = waveformName;
            NIRfsgPlayback.ReadWaveformFromFileComplex(filePath, ref waveform.WaveformData);
            NIRfsgPlayback.ReadSignalBandwidthFromFile(filePath, 0, out waveform.SignalBandwidth_Hz);

            NIRfsgPlayback.ReadWaveformFileVersionFromFile(filePath, out string waveformVersion);
            if (waveformVersion == "1.0.0")
            {
                NIRfsgPlayback.ReadPeakPowerAdjustmentFromFile(filePath, 0, out waveform.PAPR_dB);
            }
            else
            {
                NIRfsgPlayback.ReadPaprFromFile(filePath, 0, out waveform.PAPR_dB);  //Version 2.0.0 and later
            }
            NIRfsgPlayback.ReadBurstStartLocationsFromFile(filePath, 0, ref waveform.BurstStartLocations);
            NIRfsgPlayback.ReadBurstStopLocationsFromFile(filePath, 0, ref waveform.BurstStopLocations);

            // If the waveform does not have burst start or stop locations stored, then we will set the burst start to
            // the first sample (0) and the stop to the last sample (number of samples minus one
            if (waveform.BurstStartLocations == null)
            {
                waveform.BurstStartLocations = new int[1] {
                    0
                }
            }
            ;
            //Separate checks because null array throws exception when checking length
            else if (waveform.BurstStopLocations.Length <= 0)
            {
                waveform.BurstStartLocations = new int[1] {
                    0
                }
            }
            ;

            if (waveform.BurstStopLocations == null)
            {
                waveform.BurstStopLocations = new int[1] {
                    waveform.WaveformData.SampleCount - 1
                }
            }
            ;
            //Separate checks because null array throws exception when checking length
            else if (waveform.BurstStopLocations.Length <= 0)
            {
                waveform.BurstStopLocations = new int[1] {
                    waveform.WaveformData.SampleCount - 1
                }
            }
            ;

            waveform.SampleRate    = 1 / waveform.WaveformData.PrecisionTiming.SampleInterval.FractionalSeconds;               //Seconds per sample
            waveform.BurstLength_s = (waveform.BurstStopLocations[0] - waveform.BurstStartLocations[0]) / waveform.SampleRate; //  no. samples / (samples/s) = len_s

            if (normalizeWaveform)
            {
                NormalizeWaveform(ref waveform);
            }

            return(waveform);
        }